OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS
Thermoelectric properties of two-dimensional (2D) Dirac materials are calculated within linearized Boltzmann transport theory and relaxation time approximation. We find that the gapless 2D Dirac material exhibits poorer thermoelectric performance than the gapped one. This fact arises due to cance...
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id-itb.:422652019-09-17T14:19:08ZOPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS Primahatva Adhitya K, Lukas Fisika Indonesia Theses Dirac material, figure of merit, narrow gap, thermoelectricity. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/42265 Thermoelectric properties of two-dimensional (2D) Dirac materials are calculated within linearized Boltzmann transport theory and relaxation time approximation. We find that the gapless 2D Dirac material exhibits poorer thermoelectric performance than the gapped one. This fact arises due to cancelation effect from electronhole contributions to the transport quantities. Opening the band gap lifts this cancellation effect. Furthermore, there exists an optimal band gap for maximizing figure of merit (ZT) in the gapped 2D Dirac material. The optimal band gap ranges from 6kBT to 18kBT, where kB is the Boltzmann constant and T is the operating temperature in kelvin. This result indicates the importance of having narrow gaps to achieve the best thermoelectrics in 2D systems. Larger maximum ZTs can also be obtained by suppressing the lattice thermal conductivity. In the most ideal case where the lattice thermal conductivity is very small, the maximum ZT in the gapped 2D Dirac material can be many times ZT of commercial thermoelectric materials. text |
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Fisika Primahatva Adhitya K, Lukas OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS |
| description |
Thermoelectric properties of two-dimensional (2D) Dirac materials are calculated
within linearized Boltzmann transport theory and relaxation time approximation.
We find that the gapless 2D Dirac material exhibits poorer thermoelectric performance
than the gapped one. This fact arises due to cancelation effect from electronhole
contributions to the transport quantities. Opening the band gap lifts this cancellation
effect. Furthermore, there exists an optimal band gap for maximizing figure
of merit (ZT) in the gapped 2D Dirac material. The optimal band gap ranges
from 6kBT to 18kBT, where kB is the Boltzmann constant and T is the operating
temperature in kelvin. This result indicates the importance of having narrow gaps
to achieve the best thermoelectrics in 2D systems. Larger maximum ZTs can also
be obtained by suppressing the lattice thermal conductivity. In the most ideal case
where the lattice thermal conductivity is very small, the maximum ZT in the gapped
2D Dirac material can be many times ZT of commercial thermoelectric materials. |
| format |
Theses |
| author |
Primahatva Adhitya K, Lukas |
| author_facet |
Primahatva Adhitya K, Lukas |
| author_sort |
Primahatva Adhitya K, Lukas |
| title |
OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS |
| title_short |
OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS |
| title_full |
OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS |
| title_fullStr |
OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS |
| title_full_unstemmed |
OPTIMAL BAND GAP FOR IMPROVED THERMOELECTRIC PERFORMANCE OF TWO-DIMENSIONAL DIRAC MATERIALS |
| title_sort |
optimal band gap for improved thermoelectric performance of two-dimensional dirac materials |
| url |
https://digilib.itb.ac.id/gdl/view/42265 |
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